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Radial Fractures: Anthony Safi MEDIII Orthopedic Surgery Rotation

Distal radius fractures are the most common orthopedic injury. They occur more often in older women and have two mechanisms of injury. Classification is based on displacement, involvement of joints, and mechanism. Treatment depends on fracture pattern and stability, and can include closed reduction, open reduction and internal fixation (ORIF), or external fixation. Complications include median/ulnar nerve issues, tendon ruptures, and arthritis.

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62 views22 pages

Radial Fractures: Anthony Safi MEDIII Orthopedic Surgery Rotation

Distal radius fractures are the most common orthopedic injury. They occur more often in older women and have two mechanisms of injury. Classification is based on displacement, involvement of joints, and mechanism. Treatment depends on fracture pattern and stability, and can include closed reduction, open reduction and internal fixation (ORIF), or external fixation. Complications include median/ulnar nerve issues, tendon ruptures, and arthritis.

Uploaded by

Anthony safi
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© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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Download as ZIP, PDF, TXT or read online on Scribd
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Radial Fractures

Anthony Safi MEDIII


Orthopedic surgery rotation
Distal Radius Fractures
• The most common orthopedic injury, treatment based on
fracture pattern and stability.

• More common in females over 50years of age and has a


bimodal distribution, with a mechanism of injury for each.

• The most common risk factor is osteoporosis, and usually a


distal radius fracture is a predictor of subsequent fractures.
Distal Radius
Fractures

Often present with DRUJ


injuries, radial styloid
fractures, TFCC injuries or
ligament tears.
Distal radius responsible
for most of axial loading
and it articulates with the
scaphoid the lunate and the
ulna.
Classification
• Injuries can be classified either based on mechanism of injury
(Fernandez), joint involvement (Frykman) or displacement
(Melone).

• Several subtypes of fractures can be described.

• Chauffer’s fracture which is a radial styloid fracture.


Colles’ fracture
• FOOSH, low-energy, dorsally
displaced and extra-articular
fracture.
Smith’s fracture
• Falling on dorsum of the hand,
low energy mechanism, volar
displacement and extra-articular
fracture.
Die-punch fracture
• Depressed fracture of the lunate
fossa of the articular surface of
the distal radius
Barton’s fracture
• Fracture-dislocation of
radiocarpal joint with intra-
articular fracture involving the
volar or dorsal lip
Intra vs Extra
• Intra articular fractures more likely to have complications later
on than extra articular because fracture reaches into the joint
space and might later on cause post traumatic osteoarthritis.
Presentation
• Patients usually present due to a FOOSH, with wrist pain,
swelling and deformity.

• Limited ROM

• Upon inspection we notice ecchymoses, swelling diffuse


tenderness and deformities if there is displacement.
Imaging
• AP, lateral and obliques X-rays to view radial height,
inclination, articular step-off and volar tilt.

• CT to evaluate intra-articular involvement and to plan for


surgery.

• MRI to evaluate soft tissue injury (TFCC and ligaments).


Treatment
• Non-operative: closed reduction with cast/splint
immobilization. (extra articular, shortening <5mm, angulation
<5).

• Operative:

1. CRPP (stable extra articular injury)

2. ORIF (unstable, intra articular, shortening >5mm, angulation


>5, osteoporosis, associated ulnar fracture, failed CR)

3. External fixation (open fractures, highly comminuted fractures,


unstable patients) usually combined with percutaneous pinning
to restore 10degree palmar tilt.
Complications
• Median nerve neuropathy (immobilization in excessive wrist
flexion or ulnar deviation).

• Ulnar nerve neuropathy (DRUJ injuries)

• EPL rupture (non-displaced distal radial fracture)

• FPL rupture (very distal polar plate placement on the radius)

• Radiocarpal arthrosis

• Malunion/nonunion

• ECU or EDM entrapment


Radial Head Fracture
• Among the most common elbow fractures.

• Usually FOOSH (elbow extended, forearm pronated)

• Can be associated with LCL/MCL injury, Essex-lopresti (DRUJ


+ IOM) injury, coronoid, olecranon and scaphoid fractures as
well as elbow dislocation.
Anatomy
• LCL is a primary stabilizer to varus in the elbow, anterior
bundle of MCL is a primary stabilizer to valgus at the elbow.

• If MCL is deficient, radial head acts as secondary stabilizer to


valgus of the elbow.

• Radial head also give longitudinal stability which restrains


proximal migration of the radius.

• Two joints: ulnohumeral and radiocapitellar.


Classification
• Four types according to the
mason classification that depend
on the displacement, joint
involvement and mechanism of
injury.
Presentation
• Patients present with pain and tenderness along lateral aspect of
elbow and limited ROM.

• We should evaluate for mechanical blocks of elbow motion


(F/E; P/S).

• We should evaluate stability:

1. At the elbow (valgus stress test and lateral pivot shift test).

2. At the DRUJ ( palpate for wrist tenderness).

3. Interosseous membrane (radius pull test).


Imaging
• AP and lateral view x-rays to
check for fat pad sign (occult
minimally displaced fracture)

• Radiocapitellar view (to detect


subtle fractures of the radial
head)

• CT scan for comminuted and


complex fractures.
Treatment
• Non-operative: short period of immobilization followed by
early ROM (Mason type I)

• Operative:

1. ORIF (Mason type II with mechanical block, Mason type III)

2. Fragment excision or Radial head excision.

3. Radial head arthroplasty (Mason type III and more than 3


fragments + ORIF not feasible)

4. Retrograde titanium nail reduction and stabilization.


Complications
• Displacement of fracture

• Posterior interosseous nerve injury

• Loss of fixation

• Loss of forearm rotation

• Elbow stiffness

• Radiocapitellar joint arthritis

• Infection

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